DE102014221684A1 - Housing for receiving a plurality of battery cells with a cooling device integrated in the housing - Google Patents

Abstract

The invention relates to a housing (10) for receiving a plurality of battery cells (20), in particular lithium-ion battery cells, wherein the housing (10), in particular a plastic housing, a cooling device with an entry point (30) and an exit point ( 40) for an air flow (22) for cooling the battery cells (20). Furthermore, the housing (10) together with the cooling device integrated in the housing (10) is designed as a one-piece component, the cooling device additionally having spacers (34; 34a, 34b) for arranging all the battery cells (20) to be accommodated with an air-conductible gap (23). between the battery cells (20), whereby the air flow (22) an air channel (25) between the battery cells (20) is provided. Furthermore, the invention relates to a battery pack (50) and a motor vehicle with such a battery pack (50).

Description

The present invention relates to a housing for receiving a plurality of battery cells with a cooling device, a battery pack with a housing according to the invention and a motor vehicle with such a battery pack.

State of the art

Li-ion battery systems are used as energy storage for driving in hybrid and electric vehicles. They consist of several Li-ion battery cells that are electrically connected in series and / or in parallel, monitored by a battery management system and mechanically integrated into an overall system. The cells are preferably operated in a specific temperature window to ensure optimum performance, minimal aging and safe operation.

For this, above all, the Joule heat arising during operation of the cells, which can be described by the electrical current and the internal resistance of the cell, and the reaction enthalpy resulting from reversible chemical processes in the cell must be removed from the system.

In many technical applications, the cells or modules are cooled by means of liquid cooling. For this purpose, for example, a module assembly on fluid-flow plates, which are acted upon depending on the degree of required cooling capacity with water / glycol mixtures or evaporating refrigerant. A disadvantage of these cooling variants are all the higher equipment costs and the number of components required for integration into the vehicle. Especially with smaller (low-voltage) battery systems, it may be advantageous to be independent of the thermal management of the vehicle in order to obtain a certain flexibility with respect to the installation site and to allow a standardizability of the modules.

Air cooling is already known today. Out DE 10 2011 080 975 A1 For example, a battery cell stack for a battery module is known which has prismatic battery cells between which prismatic air channels are arranged. By means of these air ducts a targeted air flow between the battery cells is possible. It is further proposed to introduce the battery cell stack with the air ducts in a corresponding battery case and possibly to brace, ie the air ducts are not formed together with the battery housing as a one-piece component and must therefore be inserted and mounted to form a battery cell housing with air channels in a battery case.

In 1 By way of example, such a battery cell housing is shown schematically, ie in a separate battery cell housing 11 is a battery cell stack with air channels 25 between the individual battery cells 20 been installed. For this purpose, a likewise separate battery cell stack is first constructed with a cooling device. The air-conductible gap 23 between the battery cells 20 are made by separate components, so-called spacers 34 (Eng. "Spacer"), realized. In addition, in many air-cooled systems so-called air baffles 31 (eng. "Air Plenums") used to control the airflow 22 evenly between the battery cells 20 to distribute. The cooling device, more preferably a fan 33 , Distribution room 26 , Collection room 27 as well as air filters 32 . 42 Finally, it will be in a separate housing 11 assembled.

Further, in DE 10 2007 043 947 A1 a cooling body for battery cells described which channels for cooling medium and can be made from a single extruded profile. The heat sink does not include the inlet and outlet for the cooling medium. Rather, for this purpose, a first and a second cover cap for closing the first and second end face of the heat sink are provided, which provide the necessary inflow and outflow for the cooling medium. It is proposed to fasten the cover caps to the heat sink suitable, in particular to weld to the heat sink.

Another cooling structure for batteries is in JP 2012-028207 A presented. So that the batteries can be cooled by means of controlled air cooling, a flow control plate is provided in the cooling structure, which is positioned in the flow direction in front of the first row of the battery cells arranged in several rows. The flow control plate has openings for the air flow and thus allows the passage of the cooling air through the flow control plate at desired locations. Such a flow control plate is arranged only in front of the batteries in the first row and does not serve at the same time as a spacer of the batteries, in particular not for arranging the batteries with a gap between the batteries.

Finally is off US 2006/0216582 A1 a housing for batteries known, in which in addition to cooling plates additionally two openings are provided for the inlet of the outside air. However, the air supplied to the housing is not passed between the battery cells, but rather the purpose of cooling the cooling plates. So is in Interspace between the battery cells no air duct provided, but cell boundary plates, which consist of materials with high thermal conductivity in order to derive as much heat from the battery cells to the cooling plates can.

In summary, a housing for battery cells of the prior art is basically known, which comprises a cooling device by means of an air flow. However, the known system configuration is on the one hand technically complex and, on the other hand, economically unfavorable for the following reasons: On the whole, a great many different parts are used, which are first manufactured individually and later assembled. Specifically, first, a separate module or pack of battery cells is constructed with a cooling device, such as spacers, to provide an air passage between the battery cells. The entire battery cell pack is then installed again in a separate housing.

There is therefore a need for a housing for battery cells, which can be provided inexpensively with a technically simple arrangement for reliable cooling of the battery cells by means of a cooling current.

Disclosure of the invention

The housing according to the invention for accommodating a plurality of battery cells comprises a cooling device with an entry point and an exit point for an air flow for cooling the battery cells. In this case, the housing is formed together with the cooling device integrated in the housing as a one-piece component. In addition, the cooling device has spacers for locating all the battery cells to be accommodated with an air-conductible space between the battery cells, thereby providing the air flow with an air channel between the battery cells.

The embodiment of the housing according to the invention is based on the following findings: First, it was found that a cost-effective production of the housing can be achieved with an air cooling device in which the number of separate components required for the entire housing is significantly reduced. In the most optimal case, then the entire housing is formed as a one-piece component. It follows that as many parts of the cooling device as possible should be integrated into the one-piece housing, i. the housing with the integrated cooling device is manufactured in a single manufacturing step.

In order for the cooling device to achieve reliable cooling effect, the necessary minimum requirements for the cooling device must be identified for this purpose. It has also been found that in addition to the basically required for the air cooling of the battery cells openings on the housing, ie entry and exit point for the air flow, for a reliable cooling effect is crucial that the cooling flow is passed into the spaces between the battery cells. This finding led to the inventive measure to provide the housing-integrated cooling device with spacers for arranging all the battery cells to be accommodated with an air-conductible gap between the battery cells, thereby providing the air flow with an air channel between the battery cells.

With the spacer required according to the invention, it is advantageously achieved that, on the one hand, a reliable support for the battery cells in the housing is provided, and, on the other hand, an arrangement of the battery cells suitable for effective air cooling is simultaneously ensured. In this respect, the spacer not only assumes a mechanical support function, but also makes a significant contribution to effective air cooling. Therefore, the spacer can be considered as an essential part of the cooling device.

As a result, the housing provided according to the invention for battery cells is advantageously inexpensive to produce and already includes all components required for reliable air cooling, in particular without having to install separate components.

Advantageous developments of the invention are specified in the subclaims and described in the description.

drawing

Embodiments of the invention will be explained in more detail with reference to the drawings. It shows:

1 an embodiment of a housing for battery cells with a device for air cooling of the prior art,

2 a first embodiment of the housing according to the invention for battery cells with a device for air cooling in plan view,

3 two graphical representations of simulation results for air flow,

4 A second embodiment of the housing according to the invention for battery cells with a device for air cooling in plan view,

5 a third embodiment of the housing according to the invention for battery cells with a device for air cooling in perspective view, and

6 A fourth embodiment of the housing according to the invention for battery cells with a device for air cooling in a perspective view.

Description of the embodiments

A first embodiment of the housing according to the invention is using the 2 explained. Basically, with the invention, a housing 10 for receiving a plurality of battery cells 20 provided, wherein the housing 10 a cooling device with an entry point 30 and an exit point 40 for a flow of air 22 for cooling the battery cells 20 includes. The battery cells 20 can be formed by lithium-ion battery cells. The housing 10 is preferably a plastic housing. According to the invention, it is additionally required that the housing 10 together with in the case 10 integrated cooling device is formed as a one-piece component. In this case, the cooling device additionally spacers 34 ; 34a . 34b for arranging all the battery cells to be picked up 20 with an air-conducting gap 23 between the battery cells 20 on, reducing the airflow 22 an air duct 25 between the battery cells 20 provided. The spacer 34 ; 34a . 34b himself is in 2 and 4 not shown for clarity; only his position is indicated by the reference number 34 ; 34a . 34b indicated.

In the embodiment of the invention according to 2 the cooling device has one in the flow direction of the air flow 22 the entry point 30 downstream distribution room 26 for distribution of airflow 22 on. In the distribution room 26 gets through the entry point 30 in the case 10 introduced airflow 22 advantageous to the battery cells to be cooled 20 distributed. Due to the distribution room 26 must the airflow 22 so advantageous not already at the entry point 30 necessarily have a width or a diameter that for the cooling of all battery cells 20 is required in the battery cell stack. Accordingly, the entry point 30 of the housing 10 be made compact even with a large battery cell stack. At the latest when leaving the distributor room 26 has the airflow 22 reached the necessary width.

For this purpose, the distribution room 26 at least one air baffle 31 for guiding the airflow 22 exhibit. In particular, the distribution space 26 , as in 2 recognizable by an air baffle 31 be limited at least in certain areas. Depending on requirements, it is also possible that an air baffle 31 within a distribution room 26 is arranged. So could the air flow 22 be distributed early or channeled in several directions. Incidentally, the term "air baffle 31 "In the present description is not to be understood as a limited to a particular material note to the component. The air baffle 31 can in the housing according to the invention 10 also be constructed of non-metallic materials. So can the air baffle 31 also made of a plastic.

Next is the 2 to see that the air baffle 31 is arranged such that the on the air baffle 31 guided airflow 22 from the air baffle 31 parallel to side surfaces 24 the male battery cells 20 is distracted. This measure is based on the knowledge that the air baffle 31 not just for the mere distribution of the airflow 22 on several battery cells 20 is suitable, but also for targeted distraction of the air flow 22 in a parallel direction to side surfaces 24 the male battery cells 20 , Particularly suitable is a deflection of the air flow 22 through an air baffle 31 when the deflected airflow 22 between the side surfaces 24 the battery cells 20 runs, ie the air flow 22 cools in its flow through the space 23 the battery cells 20 at the same time two adjacently arranged battery cells 20 ,

In the embodiment according to 2 runs the air flow 22 parallel to the wide-sided side surfaces 24 the battery cells 20 , Depending on your needs, the air flow 22 but also parallel to the narrow-sided side surfaces 24 the battery cells 20 run. One possibility for this would be, for example, that the battery cells 20 - Compared to the embodiment according to 2 - Are arranged rotated by 90 °.

In a development of the invention, it is advantageously provided that the distributor space 26 at least one corner c1, c2 with a - as in 3 indicated - rounding 35 for uniform distribution of the air flow 22 having. This measure is based on the knowledge that the configuration of the corners c1, c2 in the distributor space 26 an influence on the even distribution of the air flow 22 Has. In 2 has the distribution room 26 by way of example, no rounded corners c1, c2. In such cases, as the simulations 3 show the possibility that the airflow 22 not homogeneous all interstices 23 between the battery cells 20 flows through. The flow rate of the airflow 22 can be greater than 0 (zero) and less than or equal to 380 m / h. Preferably, the flow rate has a value in the range of 320 to 60 m / h.

The left illustration in 3 shows an overview of the strength (velocity) of the air flow 22 in the distribution room 26 as well as in the air ducts 25 between the battery cells 20 under a given, constant supply of cooling air in the absence of rounding 35 at the corners c1, c2. The rectangular section of the overview in the left-hand illustration is shown enlarged in the right-hand illustration. The small lines or arrows in the illustrations represent the distribution and strength of the airflow 22 , The simulations show that the outer air channels 25 , in particular the first, arranged at the corner c2 air duct 25 , less with airflow 22 is supplied as the inner air channels 25 , A distribution room 26 with at least one corner c1, c2 with a rounding 35 therefore contributes to the even distribution of the air flow 22 at.

It is proposed, in particular, at least one corner c1, c2 with a rounding 35 for the management of the airflow 22 in an air duct 25 to be provided at an end position. Preferably, the at least one corner c1 with a rounding 35 through an air baffle 31 with a rounding 35 be configured at its end.

In a development of the invention, the cooling device has at least one air filter 32 . 42 on. The air filter 32 . 42 may be preferred as an entry point 30 and / or as an exit point 40 be educated. This ensures that only filtered, pure airflow 22 in the case 10 is introduced. The air filter 42 as exit point 40 prevents, even in the absence of flowing cooling air under any circumstances, the outside air unfiltered through the exit point 40 in the case 10 penetrates.

To strengthen the air flow 22 the cooling device can be a fan 33 exhibit. The fan is preferred 33 adjacent to the entry point 30 arranged. This ensures that the entire air flow 22 inside the case 10 is reinforced.

The second embodiment of the housing according to the invention 10 for battery cells 20 according to 4 shows a variant in which the battery cells 20 not only next to each other, but also can be arranged one behind the other. So can several battery cell stacks in the housing 10 to be ordered. The housing 10 therefore has an elongated cuboid shape. The reference numerals in 4 by the way have the same meaning as in the 2 (or as throughout the present application), and therefore will not be described repeatedly here.

Another possibility, not shown in figures, is the battery cells 20 also stacked on top of each other. The outer shape of the case 10 Thus, it can be advantageously produced adapted to the particular requirement, without losing the design of the housing according to the invention 10 departing.

A third embodiment of the housing according to the invention 10 for battery cells 20 is in 5 shown in perspective. Also in this embodiment, first, a housing 10 provided with a cooling device, wherein the cooling device is an entry point 30 and an exit point 40 for a flow of air 22 for cooling the battery cells 20 includes. Next is in this 5 the spacer 34 ; 34a . 34b represented in 2 and 4 is not shown for clarity. In this embodiment, the spacer is 34 ; 34a . 34b in the case 10 with a bottom surface B through an intermediate plane spacer 34a configured, which is arranged in a plane with a distance d to the bottom surface B. The distance d to the bottom surface B is chosen so that the intermediate plane spacer 34a the battery cells 20 after being picked up in the case 10 encompasses approximately in its middle height.

Alternatively or preferably additionally, the spacer 34 ; 34a . 34b in the case 10 with the bottom surface B through a bottom spacer 34b configured, which is arranged on the bottom surface B. The battery cells 20 be through the floor spacer 34b a defined arrangement in the housing 10 provided so that after its inclusion in the housing 10 between the battery cells 20 one air channel each 25 is formed.

Although in the embodiment of 5 not provided and therefore not shown, if necessary, the cooling device can in the flow direction of the air flow 22 the exit point 40 upstream collection room 27 to collect the airflow 22 exhibit.

It should be made clear at this point that all parts of the cooling device, if they are provided in a particular embodiment of the invention, in the one-piece housing 10 be provided as integrated parts.

Further, a battery pack 50 with a housing according to the invention 10 and battery cells arranged therein 20 as a further object of the invention. As in a further embodiment of the invention according to 6 shown, the battery pack 50 a housing 10 have a separate lid 15 includes. The separate lid 15 So it is not in the one-piece housing 10 integrated. With the separate lid 15 be in the case 10 arranged battery cells 20 Protected from external, harmful effects from all sides. Preferably, the lid 15 be equipped with electronic components. By way of example, the lid 15 include electronic components that act as cell connectors according to his Apply to the housing 10 an electrical connection between the battery cells 20 cause.

The battery pack according to the invention 50 Can be used or installed for a variety of purposes. It is proposed by way of example, a motor vehicle, in particular an electric motor driven motor vehicle, with a battery pack according to the invention 50 to provide, with the battery pack 50 is connected to a drive system of the motor vehicle.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102011080975 A1 [0005]
• DE 102007043947 A1 [0007]
• JP 2012-028207A [0008]
• US 2006/0216582 A1 [0009]

Claims (15)

Casing ( 10 ) for receiving a plurality of battery cells ( 20 ), in particular lithium-ion battery cells, wherein the housing ( 10 ), in particular a plastic housing, a cooling device with an entry point ( 30 ) and an exit point ( 40 ) for a flow of air ( 22 ) for cooling the battery cells ( 20 ), characterized in that the housing ( 10 ) together with the housing ( 10 ) integrated cooling device is formed as a one-piece component, wherein the cooling device additionally spacers ( 34 ; 34a . 34b ) for arranging all the battery cells to be accommodated ( 20 ) with an air-conductible gap ( 23 ) between the battery cells ( 20 ), whereby the air flow ( 22 ) an air duct ( 25 ) between the battery cells ( 20 ) provided. Casing ( 10 ) according to claim 1, characterized in that the cooling device in the flow direction of the air flow ( 22 ) the entry point ( 30 ) downstream distribution room ( 26 ) for the distribution of the air flow ( 22 ) having. Casing ( 10 ) according to claim 2, characterized in that the distribution space ( 26 ) at least one air baffle ( 31 ) for conducting the air flow ( 22 ) having. Casing ( 10 ) according to claim 3, characterized in that the air baffle ( 31 ) is arranged such that the on the air baffle ( 31 ) guided air flow ( 22 ) from the air baffle ( 31 ) parallel to side surfaces ( 24 ) of the battery cells ( 20 ), especially between the side surfaces ( 24 ) of the battery cells ( 20 ), is distracted. Casing ( 10 ) according to one of claims 2 to 4, characterized in that the distribution space ( 26 ) at least one corner (c1, c2) with a rounding ( 35 ) for uniform distribution of the air flow ( 22 ) having. Casing ( 10 ) according to claim 5, characterized in that the at least one corner (c1, c2) with a rounding ( 35 ) for the management of the air flow ( 22 ) in an air duct ( 25 ) is provided at an end position. Casing ( 10 ) according to claim 5 or 6, characterized in that the at least one corner (c1, c2) with a rounding ( 35 ) by an air baffle ( 31 ) with a rounding ( 35 ) is configured at its end region. Casing ( 10 ) according to one of claims 1 to 7, characterized in that the cooling device at least one air filter ( 32 . 42 ), in particular designed as entry point ( 30 ) and / or as exit point ( 40 ), having. Casing ( 10 ) according to one of claims 1 to 8, characterized in that the cooling device is a fan ( 33 ), in particular adjacent to the entry point ( 30 ) has arranged. Casing ( 10 ) according to one of claims 1 to 9, characterized in that the spacer ( 34 ; 34a . 34b ) in the housing ( 10 ) having a bottom surface (B) through an intermediate level spacer ( 34a ) which is arranged in a plane with a distance (d) to the bottom surface (B). Casing ( 10 ) according to one of claims 1 to 10, characterized in that the spacer ( 34 ; 34a . 34b ) in the housing ( 10 ) having a bottom surface (B) through a bottom spacer ( 34b ), which is arranged on the bottom surface (B). Casing ( 10 ) according to one of claims 1 to 11, characterized in that the cooling device in the flow direction of the air flow ( 22 ) the exit point ( 40 ) upstream collecting space ( 27 ) for the collection of airflow ( 22 ) having. Battery pack ( 50 ) with a housing ( 10 ) according to one of claims 1 to 12 and battery cells arranged therein ( 20 ). Battery pack ( 50 ) According to claim 13, characterized in that the housing ( 10 ) a separate lid ( 15 ), in particular a lid ( 15 ) with electronic components. Motor vehicle, in particular an electric motor driven motor vehicle, with a battery pack ( 50 ) according to claim 13 or 14, wherein the battery pack ( 50 ) is connected to a drive system of the motor vehicle.

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